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NB7L216MNEVB
NB7L216 Evaluation Board
User's Manual
Description
This document describes the NB7L216 evaluation board
and the appropriate lab test setups. It should be used in
conjunction with the NB7L216 data sheet which contains full
technical details on the device specifications and operation.
The evaluation board is designed to facilitate a quick
evaluation of the NB7L216 GigaCommt High Gain
Differential Receiver/Driver.
Board Lay−up
The evaluation board is implemented in two layers and
provides a high bandwidth 50 W controlled impedance
environment for higher performance. First layer or primary
trace layer is 5 mils thick Rogers RO6002 material, which
is engineered to have equal electrical length on all signal
traces from NB7L216 device to the sense output. The second
layer is 32 mils thick copper ground plane. For standard lab
setup and test, a split (dual) power supply is required
enabling the 50 ohm impedance in the scope to be used as
termination of the ECL signals (V
power supply setup, V
is the system ground).
TT
© Semiconductor Components Industries, LLC, 2012
February, 2012 − Rev. 1
= V
– 2.0 V, in split
TT
CC
Figure 1. NB7L216 Evaluation Board
EVAL BOARD USER'S MANUAL
What measurements can you expect to make?
With this evaluation board, the following measurements
could be performed in single−ended
of operation:
•
Jitter
•
Output Skew
•
Gain/Return Loss
•
Eye Pattern Generation
•
Frequency Performance
•
Output Rise and Fall Time
•
V
(Common Mode Range)
CMR
1. Single−ended measurements can only be made at
V
− V
= 3.3 V using this board setup.
CC
EE
1
http://onsemi.com
(1)
or differential modes
Publication Order Number:
EVBUM2085/D
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Summary of Contents for ON Semiconductor NB7L216MNEVB
- Page 1 NB7L216MNEVB NB7L216 Evaluation Board User's Manual http://onsemi.com EVAL BOARD USER’S MANUAL Description This document describes the NB7L216 evaluation board What measurements can you expect to make? With this evaluation board, the following measurements and the appropriate lab test setups. It should be used in could be performed in single−ended...
- Page 2 NB7L216MNEVB SETUP FOR TIME DOMAIN MEASUREMENTS Table 1. BASIC EQUIPMENT Description Example Equipment (Note 1) Qty. Power Supply with 4 outputs HP6624A Oscilloscope TDS8000 with 80E01 Sampling Head (Note 2) Differential Signal Generator HP 8133A, Advantest D3186 Matched High Speed Cables with SMA Connectors...
- Page 3 NB7L216MNEVB Setup (continued) Step 3: Setup Input Signals Step 4: Connect Output Signals 3a: Set the signal generator amplitude to 500 mV. 4a: Connect the outputs of the device (Q, Q) to the oscilloscope. The oscilloscope sampling head must have NOTE: The signal generator amplitude can vary from internal 50 W termination to ground.
- Page 4 NB7L216MNEVB Setup Step 1: Connect Power Setup Test Configurations For Differential Operation 1a:Three power levels must be provided to the board for Small Signal Setup , and GND via the surface mount clips. Using the Step 2: Input Setup split power supply mode, GND = V –...
- Page 5 NB7L216MNEVB Rohde & Schwartz Vector Network Analyzer PORT 1 PORT 2 = 2.0 V = 0 V 50 W Bias T 50 W 50 W = 0 V = −1.3 V (3.3 V op) Figure 5. NB7L216 Board Setup – Frequency Domain (Single−Ended Mode)
- Page 6 NB7L216MNEVB MORE INFORMATION ABOUT EVALUATION BOARD Design Considerations for >12 GHz operation The following considerations played a key role to ensure While the NB7L216 is specified to operate at 12 GHz, this this evaluation board achieves high−end microwave evaluation board is designed to support operating performance: •...
- Page 7 NB7L216MNEVB Table 5. BILL OF MATERIALS Part No Description Manufacturer WEB address NB7L216 Evaulation Board ON Semiconductor http://www.onsemi.com http://www.newark.com 5016 Test Point − ANVIL Keystone http://www.digikey.com 32K243−40ME3 Gold plated connector Rosenberger http://www.rosenberger.de CO6BLBB2X5UX 2 MHz – 30 GHz capacitor Dielectric Laboratories http://www.dilabs.com...
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Page 8: Ordering Information
NB7L216MNEVB ADDITIONAL EVALUATION BOARD INFORMATION www.onsemi.com References In all cases, the most up−to−date information can be found NB7L216 Data Sheet, 2.5V/3.3V, 12Gb/s Multi Level on our website. Clock/Data Input RSECL, High Gain • Sample orders for devices and boards Receiver/Buffer/Translator with Internal Termination •... -
Page 9: Package Dimensions
0.02 SCALE 10:1 inches *For additional information on our Pb−Free strategy and soldering details, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D. GigaComm is a trademark of Semiconductor Components Industries, LLC. ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein.
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